The x- and y-intercepts are both 13, so the area is ...
... A = (1/2)bh = (1/2)·13·13 = 169/2 = 84.5 . . . square units
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Solve for x when y=0 to find the x-intercept:
... 0 = 13 - x
... x = 13 . . . . . add x
Solve for y when x=0 to find the y-intercept:
... y = 13 - 0
... y = 13 . . . . . additive identity property of 0
Note: Type "2^x" without quotes to indicate
When you graph this function, you'll see that we have the exponential curve sloping upward as x increases. The function increases upward without bound. In other words, it goes on forever upward. There are no restrictions on the "ceiling" so to speak of this function curve.
There is a floor though. The floor in this case is like an electric fence that the function never touches. It only gets closer. This is known as the "horizontal asymptote". In this case, the horizontal asymptote is the line y = 0 which lays perfectly over the x axis.
So because of this "fence", the function is bounded below. It does not go forever in the negative y direction.
Final Answer: Choice B) Bounded below
5 cars and 9 motorbikes had their tires changed.
38÷4= 9.5 motorbikes
14-9=5 cars
9×2=18 5×4= 20 (add together) = 38 tires
Answer:
The population density is 618.93 per square mile.
Step-by-step explanation:
It is given that,
No. of people, N = 70,000
The radius of a city's town hall, r = 6 miles
We need to find the population density. It can be calculated by the formula i.e. number of people divided by area of land such that,
So, the population density is 618.93 per square mile.
Answer:
C. The x-coordinate should be Three-fourths.
Step-by-step explanation:
Since point A is 0.75 units to the right, it is 3/4 if 4/4 is 100.
